热泵-减压膜蒸馏工艺优化及能效分析
作者:刘铮,丁平,刘国昌
单位: 1. 自然资源部天津海水淡化与综合利用研究所,天津,300192; 2. 中国航天员科研训练中心,北京,100094
关键词: 热泵,膜蒸馏,疏水膜,产水量,比能耗
DOI号:
分类号: TQ028.8;X703
出版年,卷(期):页码: 2024,44(1):102-107

摘要:
 针对热泵-膜蒸馏过程中热量不平衡问题展开试验研究,采用两支减压膜蒸馏组件并入料液循环流路,使其分别承担热量回收及排放富余热量的方法,实现热泵系统的热量平衡。通过试验测试,MD1200和MD200被认为是最佳双膜组合。采用该双膜组合进行连续8h的含盐料液处理,结果显示,双膜组合可以获得稳定、连续的膜蒸馏运行效果,总产水量平均为1.9L/h,系统比能耗最高310W.h/kg产水,能耗性能优于无热量回收的膜蒸馏工艺,与已工业化的多效膜蒸馏工艺相当,有望成为可获得工业应用的低能耗膜蒸馏新工艺。
 The experimental study is focus on the heat imbalance in heat pump-membrane distillation process. The heat pump system heat balance is realized by using two vaccum membrane distillation modules and merging them into the liquid circulation flow path, so that they can respectively undertake the heat recovery and exclude excess heat. According to the test, it is found that the MD1200 and MD200 were the best dual membrane combination. The dual-membrane combination was used for continuous 8h salt-containing membrane distillation treatment, and the test results show that the dual-membrane-module combination can obtain stable and continuous operation of membrane distillation, with a total water yield of up to 1.9L/h, and a maximum specific energy consumption of the system of up to 310W.h/kg of water. The energy consumption performance is better than that of the membrane distillation process without heat recovery, and is comparable to the industrialized multi-effect membrane distillation process, which is expected to become a new low-energy membrane distillation process that can be applied industrially.

基金项目:
项目来源“基于空间水处理任务的膜技术研究”(2016SY54A0901);中央级公益性科研院所基本科研业务费专项资金项目“生物药用超滤膜与膜蒸馏用微孔膜研制”(K-JBYWF-2022-ZD01)。

作者简介:
刘铮(1982-),女,山东济南人,高级工程师,博士研究生,膜技术与应用,E-mail:liuzheng@isdmu.com.cn

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